Optical link management

1. A system to manage an optical link in free-space to communicate data via an aqueous medium, comprising: a first link manager agent of an underwater vehicle; and a seismic data acquisition unit positioned on a seabed in the aqueous medium, the seismic data acquisition unit comprising: one or more sensors to detect acoustic waves; a seismic data recorder to record seismic data corresponding to the acoustic waves detected by the one or more sensors; and a first link manager agent of the seismic data acquisition unit to: receive, from the first link manager agent of the underwater vehicle, a default optical transmission; transmit to the first link manager agent of the underwater vehicle, a first optical transmission at a first output level, the first optical transmission comprising a first packet corresponding to a network protocol; receive one or more additional default transmissions from the underwater vehicle having a same parameter as the default optical transmission previously received from the underwater vehicle; determine that the first link manager agent failed to receive the first packet via the first optical transmission; transmit a second optical transmission at a second output level different than the first output level between the seismic data acquisition unit and the underwater vehicle; identify that a second packet from the second optical transmission was successfully received by the first link manager agent; establish the second output level as a transmission output level for the seismic data acquisition unit; and determine that the first link manager agent of the underwater vehicle failed to receive the first packet via the first optical transmission based on receipt by the underwater vehicle of one or more optical transmissions from the seismic data acquisition unit at a predetermined time interval, wherein the first link manager agent of the seismic data acquisition unit fails to receive one or more packets of the one or more optical transmissions.

2. The system of claim 1 , comprising: the first link manager agent of the seismic data acquisition unit to determine, responsive to receipt of the one or more additional default transmissions having the same parameter, that the first link manager agent of the underwater vehicle failed to receive the first packet via the first optical transmission.

3. The system of claim 1 , comprising: the first link manager agent of the seismic data acquisition unit to transmit, responsive to failure of the first optical transmission, the second optical transmission at the second output level different from the first output level over a distance between the seismic data acquisition unit and the underwater vehicle.

4. The system of claim 1 , comprising: the first link manager agent of the underwater vehicle configured to: transmit to the first link manager agent of the seismic data acquisition unit, a third optical transmission at a third output level, the third optical transmission comprising a third packet corresponding to the network protocol; determine that the first link manager agent of the seismic data acquisition unit failed to receive the third packet via the third optical transmission; transmit, responsive to failure of the third optical transmission, a fourth optical transmission at a fourth output level different than the third output level, the fourth optical transmission comprising a fourth packet corresponding to the network protocol; identify that the fourth packet was successfully received by the first link manager agent of the seismic data acquisition unit; and establish responsive to a determination of successful receipt of a second packet and the fourth packet, an optical link between the seismic data acquisition unit and the underwater vehicle.

5. The system of claim 1 , comprising: the first link manager agent of the seismic data acquisition unit to transmit, responsive to receipt of the default optical transmission, to the first link manager agent of the underwater vehicle, the first optical transmission at the first output level.

6. The system of claim 1 , comprising: the first link manager agent of the underwater vehicle configured to disable an optical transmitter of the seismic data acquisition unit responsive to a determination that the first link manager agent of the underwater vehicle successfully received a second packet.

7. The system of claim 1 , comprising: the first link manager agent of the seismic data acquisition unit and the first link manager agent of the underwater vehicle configured to establish an optical link between the seismic data acquisition unit and the underwater vehicle; and the first link manager agent of the seismic data acquisition unit configured to provide, for inclusion in a third optical transmission, status data used to maintain a level of quality of the optical link.

8. The system of claim 1 , comprising: an automatic gain control unit of the seismic data acquisition unit to increase a gain level based on a measurement of at least one of an alternating current component or direct current component of one or more optical transmissions received by the seismic data acquisition unit; an overdrive protection system of the seismic data acquisition unit to detect a signal level greater than or equal to a threshold and, responsive to detection of the signal level greater than or equal to the threshold, turn off a receiver of the seismic data acquisition unit.

9. The system of claim 1 , comprising: the first link manager agent of the seismic data acquisition unit and the first link manager agent of the underwater vehicle configured to establish an optical link between the seismic data acquisition unit and the underwater vehicle; the first link manager agent of the seismic data acquisition unit configured to provide, for inclusion in a third optical transmission, status data used to maintain a level of quality of the optical link; and the first link manager agent of the underwater vehicle configured to adjust an output level of an optical transmitter of the seismic data acquisition unit based on the level of quality of the optical link.

10. The system of claim 1 , comprising: the first link manager agent of the seismic data acquisition unit configured to: determine that the first link manager agent of the underwater vehicle failed to receive the first packet via the first optical transmission based on receipt by the seismic data acquisition unit of a first one or more optical transmissions from the seismic data acquisition unit at a first predetermined time interval; and identify that a second packet was successfully received by the first link manager agent of the underwater vehicle based on receipt by the underwater vehicle of a second one or more optical transmissions from the seismic data acquisition unit at a second predetermined time interval.

11. The system of claim 1 , comprising: the first link manager agent of the seismic data acquisition unit configured to use a half-duplex communication technique to identify that a second packet was successfully received by the first link manager agent of the underwater vehicle.

12. A method of managing an optical link to communicate data via an aqueous medium, comprising: providing a first link manager agent of an underwater vehicle; providing a seismic data acquisition unit on a seabed in the aqueous medium, the seismic data acquisition unit comprising one or more sensor to detect acoustic waves, and a seismic data recorder to record seismic data corresponding to the acoustic waves detected by one or more sensors; receiving, by a first link manager agent of the seismic data acquisition unit, from the first link manager agent of the underwater vehicle, a default optical transmission transmitting, by the first link manager agent of the seismic data acquisition unit, to the first link manager agent of the underwater vehicle, a first optical transmission at a first output level, the first optical transmission comprising a first packet corresponding to a network protocol; receiving, by the first link manager agent of the seismic data acquisition unit, one or more additional default transmissions from the underwater vehicle having a same parameter as the default optical transmission previously received from the underwater vehicle; determining, by the first link manager agent of the seismic data acquisition unit, that the first link manager agent of the underwater vehicle failed to receive the first packet via the first optical transmission; transmitting a second optical transmission at a second output level different than the first output level between the seismic data acquisition unit and the underwater vehicle; identifying that a second packet from the second optical transmission was successfully received by the first link manager agent of the underwater vehicle; establishing the second output level as a transmission output level for the seismic data acquisition unit; and determining that the first link manager agent of the underwater vehicle failed to receive the first packet via the first optical transmission based on receipt by the underwater vehicle of one or more optical transmissions from the seismic data acquisition unit at a predetermined time interval, wherein the first link manager agent of the seismic data acquisition unit fails to receive one or more packets of the one or more optical transmissions.

13. The method of claim 12 , comprising: providing, by the first link manager agent of the underwater vehicle, for inclusion in a third optical transmission to the first link manager agent, status data used to maintain a level of quality of the optical link.

14. The method of claim 12 , comprising: identifying, by the first link manager agent of the seismic data acquisition unit, that a second packet was successfully received by the first link manager agent of the underwater vehicle prior to the first link manager agent of the seismic data acquisition unit successfully receiving one or more data packets via one or more optical transmission from the first link manager agent of the underwater vehicle.

15. The method of claim 12 , comprising: determining, by the first link manager agent of the seismic data acquisition unit responsive to receipt of the one or more additional default transmissions having the same parameter, that the first link manager agent of the underwater vehicle failed to receive the first packet via the first optical transmission.

16. The method of claim 12 , comprising: using a half-duplex communication technique to identify that a second packet was successfully received by the first link manager agent of the underwater vehicle.

17. The method of claim 12 , comprising: providing, by the first link manager agent of the seismic data acquisition unit, for inclusion in a third optical transmission to the first link manager agent of the underwater vehicle, status data used to maintain a level of quality of the optical link, the status data comprising at least one of an automatic gain control value, receiver control setting, transmitter control setting, receiver clock lock, framing error, bit error, bit error rate, network packet errors received, distance measurement, or packet retries; and adjusting, by the first link manager agent of the underwater vehicle, output level of an optical transmitter of the underwater vehicle based on the level of quality of the optical link.

18. The method of claim 12 , comprising: transmitting, by the first link manager agent of the seismic data acquisition unit responsive to receipt of the default optical transmission through the aqueous medium, the first optical transmission at the first output level.

19. The method of claim 12 , comprising: turning off, by the first link manager agent of the underwater vehicle, an optical transmitter of the underwater vehicle responsive to determining that the first link manager agent of the underwater vehicle successfully received a second packet, the first link manager agent of the underwater vehicle disabling the optical transmitter to indicate to the first link manager agent of the seismic data acquisition unit that the first link manager agent of the underwater vehicle successfully received the second packet.